共查询到19条相似文献,搜索用时 156 毫秒
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为了提高G3-PLC(G3-Power Line Communication)在复杂信道环境下通信的可靠性,提出了基于双正交小波变换的正交频分复用(Discrete Wavelet Transform-Orthogonal Frequency Division Multiplexing,DWT-OFDM)。通过双正交小波变换减小复杂信道环境下G3-PLC通信系统中OFDM载波间干扰,并通过合理减少循环前缀,优化传输效率,降低峰均比。在DWT-OFDM的G3-PLC系统中,通过不同小波基性能分析与对比,利用bior6.8双正交小波基进行系统性能优化。将DWT-OFDM的G3-PLC系统在实际电力线噪声库环境下进行实验分析,仿真结果表明,在平均误码率为10-3量级时,性能有5 dB左右提升,通信效率由40%提高至54%;结合限幅法,峰均比由11 dB降低至8 dB,通信性能极大优于基于FFT-OFDM的G3-PLC系统。 相似文献
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为了在正交频分复用系统中解决符号间干扰以及子信道干扰导致系统性能下降的问题,采用了一种新的基于变换域插值信道估计的残余消除算法的方法,进行了理论分析和实验验证,取得了科学准确的数据。利用MATLAB模拟仿真的结果表明,在宽带无线局域网中,当循环保护前缀长度不足时,采用该算法经过有限次迭代后,正交频分复用系统性能得到明显的改善,同时降低了计算的难度。这一结果对光通信技术的研究是有帮助的。 相似文献
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一种循环保护前缀不足的OFDM信道估计算法 总被引:2,自引:0,他引:2
在正交频分复用(orthogonal frequency division multiplexing,OFDM)通信系统中,信道估计占有很重要的地位。论文提出了一种在OFDM信号循环保护前缀不足情况下也可应用的盲信道估计算法,它利用循环前缀信号结构采用子空间分解,计算简单。计算机仿真显示其有良好的性能。 相似文献
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利用循环前缀(CP)引入的信息冗余,在利用接受信号的二阶统计特性实现正交频分复用(OFDM)系统信道盲估计的子空间算法基础上,采用矩阵变换的方法,改善信息序列的非周期相关函数,推导出信道估计的新算法。 相似文献
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在可见光通信中, 由于信道的多径效应和信道衰减在传统正交频分复用(OFDM)系统会产生符号间干扰, 从而降低系统的可靠性。为了保障通信质量, 采用带有循环前缀的OFDM系统来抵抗多径效应引起的符号干扰; 为了降低系统的误比特率和峰均比, 采用Haar小波来实现系统有效性、可靠性、峰均比等参量的性能优化, 并采用蒙特卡洛法进行了仿真验证。结果表明, 当系统的误比特率为10-4时, 离散小波变换OFDM系统较快速傅里叶变换OFDM(FFT-OFDM)系统的误码性能大约提高了5dB, 通信效率提高了大约11%;当系统的峰均比为5dB时, FFT-OFDM系统的互补累计分布函数(CCDF)值接近10-2, DWT-OFDM系统的CCDF值为0。该研究为可见光小波变换OFDM通信提供了参考。 相似文献
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《Lightwave Technology, Journal of》2009,27(3):177-188
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正交频分复用中的符号同步研究 总被引:1,自引:0,他引:1
同步是正交频分复用系统的关键问题之一,文章主要研究了基于循环前缀的最大似然(ML)同步算法,及基于训练序列的符号定时同步算法,并进行了算法仿真。仿真结果表明,与ML算法相比,该算法大大提高了系统的同步性能,尤其是在多径信道中的性能得到了很大提高。 相似文献
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This article proposes an N-finite Radon transform (N-FRAT) and a discrete framelet transform (FT) for the design of a new orthogonal frequency division multiplexing (OFDM) system. In the proposed system, the inverse FT (IFT) and FT were used instead of the inverse fast Fourier transform (IFFT) and fast Fourier transform (FFT) to realize multicarrier modulation and demodulation techniques, respectively. Simultaneously, it was suggested that the N-FRAT technique operate as a data mapper instead of the conventional phase shift keying (PSK) and quadrature amplitude mapping (QAM), which are usually used with the traditional OFDM system. The usage of the N-FRAT and FT in the proposed system led to an increase in the orthogonality between the subcarriers due to the application of IFFT in the N-FRAT, which was added to improve the orthogonality and time–frequency localization properties of the FT. Furthermore the proposed structure improved the bandwidth efficiency through the elimination of the cyclic prefix compared to the traditional system. The proposed system was simulated and compared with other OFDM systems, such as FFT based OFDM using N-FRAT mapping (N-FRAT-FFT-OFDM), FT based OFDM using QAM mapping (QAM-FT-OFDM), and FFT based OFDM using QAM mapping (QAM-FFT-OFDM). The simulation was performed over frequency selective fading channel using MATLAB technical programming language. The results of simulations showed that the new structure outperformed the other three systems by reducing the inter-symbol interference (ISI) and inter-carrier interference (ICI), which then improved the bit error rate (BER) performance. 相似文献
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A time and frequency synchronization scheme for multiuser OFDM 总被引:26,自引:0,他引:26
van de Beek J.-J. Borjesson P.O. Boucheret M.-L. Landstrom D. Arenas J.M. Odling P. Ostberg C. Wahlqvist M. Wilson S.K. 《Selected Areas in Communications, IEEE Journal on》1999,17(11):1900-1914
We present a multiuser synchronization scheme for tracking the mobile's uplink time and frequency offsets. It uses the redundancy introduced by the cyclic prefix and does not need additional pilots. We show performance results of an orthogonal frequency division multiplexing (OFDM)-based radio interface based on the universal mobile telecommunication system (UMTS) parameters. For a UMTS-typical mobile channel environment, the performance of a coherent system employing the scheme is virtually indistinguishable from the performance of a perfectly synchronized system. In a differentially modulated system, synchronization errors decrease the system performance by about 0.7 dB compared to a perfectly synchronized system 相似文献